“Invariance-Inducing” Control of Nonlinear Discrete-Time Dynamical Systems

This paper is concerned with the problem of robust control of a class of discrete time systems with parameter uncertainty and unknown nonlinearities. The parameter uncertainty we consider is real time-varying norm-bounded and appears in both the state and output equations. We address the problem of

The purpose of this paper is to introduce some notions of invariant distributions, for the class of linear analytic discretetime systems, and to give an algebraic characterization of them. A brief final discussion motivates the usefulness of the notions introduced in the study of the geometric prope

The objective of this paper is to achieve tracking control of a class of unknown nonlinear dynamical systems using a discrete-time fuzzy logic controller (FLC). Designing a discrete-time FLC is signi"cant because almost all FLCs are implemented on digital computers. We present a repeatable design al

Two perturbation methods for nonlinear autonomous discrete-time dynamical systems are presented. They generalize the classical Lindstedt-Poincar6 and multiple scale perturbation methods that are valid for continuous-time systems. The Lindstedt-Poincar6 method allows determination of the periodic or